2022
Chapter Three Monitoring functional RNA binding of RNA-dependent ATPase enzymes such as SF2 helicases using RNA dependent ATPase assays: A RIG-I case study
Guo R, Pyle AM. Chapter Three Monitoring functional RNA binding of RNA-dependent ATPase enzymes such as SF2 helicases using RNA dependent ATPase assays: A RIG-I case study. Methods In Enzymology 2022, 673: 39-52. PMID: 35965013, DOI: 10.1016/bs.mie.2022.03.064.Peer-Reviewed Original ResearchConceptsEnzymatic ATPase activitySuperfamily 1Nucleic acid-dependent ATPasesATPase activityRNA-dependent ATPaseSimple reporter systemNucleic acid bindingNucleic acid ligandsNucleic acidsATPase enzymeSF2 helicaseAcid ligandsKinetic parametersRNA associationSF2 helicasesRNA bindingMultitude of processesMotor proteinsBiological functionsSF1 helicasesReporter systemFunctional bindingConformational changesDirect binding assaysAcid binding
2014
The RIG-I ATPase core has evolved a functional requirement for allosteric stabilization by the Pincer domain
Rawling DC, Kohlway AS, Luo D, Ding SC, Pyle AM. The RIG-I ATPase core has evolved a functional requirement for allosteric stabilization by the Pincer domain. Nucleic Acids Research 2014, 42: 11601-11611. PMID: 25217590, PMCID: PMC4191399, DOI: 10.1093/nar/gku817.Peer-Reviewed Original ResearchConceptsATPase coreRetinoic acid-inducible gene IAcid-inducible gene INon-self RNASeries of mutationsActivity of RIGMetazoan cellsHelicase coreAllosteric controlTerminal domainPattern recognition receptorsAlpha-helixBiophysical analysisGene IAllosteric stabilizationType I interferonEnzymatic activityRecognition receptorsViral RNAStructural studiesRNAI interferonAdjacent domainsDomainImportant role
2002
mda-5: An interferon-inducible putative RNA helicase with double-stranded RNA-dependent ATPase activity and melanoma growth-suppressive properties
Kang DC, Gopalkrishnan RV, Wu Q, Jankowsky E, Pyle AM, Fisher PB. mda-5: An interferon-inducible putative RNA helicase with double-stranded RNA-dependent ATPase activity and melanoma growth-suppressive properties. Proceedings Of The National Academy Of Sciences Of The United States Of America 2002, 99: 637-642. PMID: 11805321, PMCID: PMC117358, DOI: 10.1073/pnas.022637199.Peer-Reviewed Original ResearchMeSH KeywordsAdenosine TriphosphatasesAmino Acid SequenceAnimalsApoptosisCell DifferentiationCell DivisionCloning, MolecularDEAD-box RNA HelicasesDNA, ComplementaryGrowth InhibitorsHumansInterferon Type IInterferon-Induced Helicase, IFIH1MelanomaMolecular Sequence DataRecombinant ProteinsRNA HelicasesRNA, Double-StrandedSequence Homology, Amino AcidTumor Cells, CulturedTumor Stem Cell AssayConceptsRNA-dependent ATPase activityCaspase recruitment domainHelicase motifsHuman melanoma cellsRecruitment domainRNA helicase motifsRNA-dependent ATPaseMDA-5RNA helicase domainPutative RNA helicaseMelanoma cellsEarly response genesATPase activityProtein kinase C activationGrowth-suppressive propertiesMelanoma differentiation-associated gene 5Appropriate pharmacological manipulationKinase C activationHypothetical proteinsRNA helicaseHelicase domainDifferentiation-associated gene 5Mediator of IFNSubtraction hybridizationMda-5 expression